When an object is plumb, it means that it is perfectly vertical and aligned with the force of gravity. This is typically determined using a plumb bob or a level to ensure that the object is straight up and down.
The vertical component of a vector is influenced by factors such as gravity, the direction of the vector, and the angle at which the vector is tilted with respect to the vertical axis. It represents the magnitude of the vector in the vertical direction.
The vertical motion of a projectile is affected by gravity. Gravity acts to accelerate the projectile downward while it is in motion, causing its vertical velocity to increase or decrease accordingly.
The center of gravity is usually calculated by finding the average of the weighted positions of all the parts of an object or system. It is the point where the weight of an object is concentrated and can be located using specific formulas and measurements depending on the shape and distribution of mass. Experimentally, you can try hanging an object from different points and finding where it balances perfectly to locate its center of gravity.
Gravity is the force that gives a thrown ball its vertical movement. As the ball is thrown upwards, gravity acts on it, pulling it back down towards the ground. The vertical movement of the ball is a result of the interaction between the force of the throw and the force of gravity.
ANY weighted string will hang vertical because of gravity. (Technically, I guess you'd have to specify that the center of gravity of the weight is on the extension of the line that's defined by the string.)
ANY weighted string will hang vertical because of gravity. (Technically, I guess you'd have to specify that the center of gravity of the weight is on the extension of the line that's defined by the string.)
When an object is plumb, it means that it is perfectly vertical and aligned with the force of gravity. This is typically determined using a plumb bob or a level to ensure that the object is straight up and down.
It means more or less the same as "center of mass" (there is a slight technical difference, which is not relevant for most cases). That would be a kind of "average position" of an object (technical note: this is a "weighted average", weighted by mass, and distance). If an object is hung up by its center of gravity, it would be perfectly balanced.
they interact because of the gravity
because gravity control is only used in vertical position only......it has less tension
The vertical component of a vector is influenced by factors such as gravity, the direction of the vector, and the angle at which the vector is tilted with respect to the vertical axis. It represents the magnitude of the vector in the vertical direction.
The vertical motion of a projectile is affected by gravity. Gravity acts to accelerate the projectile downward while it is in motion, causing its vertical velocity to increase or decrease accordingly.
I believe you are spelling it correctly. It sounds like you are using the word to mean 'plumb', or perfectly vertical, or perfectly oriented with gravity. That is one sense of the word true. It is the same spelling as in not being false.
The center of gravity is usually calculated by finding the average of the weighted positions of all the parts of an object or system. It is the point where the weight of an object is concentrated and can be located using specific formulas and measurements depending on the shape and distribution of mass. Experimentally, you can try hanging an object from different points and finding where it balances perfectly to locate its center of gravity.
Gravity is the force that gives a thrown ball its vertical movement. As the ball is thrown upwards, gravity acts on it, pulling it back down towards the ground. The vertical movement of the ball is a result of the interaction between the force of the throw and the force of gravity.
When the vertical component of their velocity has dwindled to zero because of the acceleration of gravity.